• 대한환경공학회지
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• 제34권7호
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• pp.445-453
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• 2012

본 연구에서는 PAHs 오염토양의 자연 풍화 및 화학적 생물학적 처리과정에서 반응부산물로 흔히 발견되는 PAH-케톤화합물인 1-indanon (1-ID)을 대상으로 페놀계 반응매개체 존재 하에서의 망간산화물에 의한 산화 변환 제거특성 및 용존 자연유기물인 휴믹산(HA)의 존재에 따른 영향을 조사하였다. 반응성 평가 실험은 수용액 상에서 회분식(10 mg/L 1-ID, 0.3 mM phenolic mediators, $1.0g/L\;{\delta}-MnO_2$, at pH 5)으로 수행 하였으며, 페놀계의 반응매개체(phenolic mediator)는 자연산 페놀화합물로서 휴믹물질의 모델 화합물로서도 널리 사용되고 있는 11종을 사용하였다. 실험결과 1-ID은 망간산화물 자체에 대하여는 비반응성을 띠었으나 페놀계 반응매개체 존재 하에서 교차-결합(cross-coupling)반응을 통해 제거됨을 HPLC 분석을 통해 확인하였으며, 1-ID의 제거율은 반응 2일 경과 후 9.2~71.2%범위에서 페놀계 반응매개체의 구조적 특성에 따라 다르게 나타났다. 각 반응매개체 존재 하에서의 1-ID의 교차결합 반응은 유사1차 반응 속도식을 따랐으며, 초기 반응속도 상수 값($K_{int}$, $hr^{-1}$)은 0.48~15.0의 넓은 범위에서 나타났다. 1-ID의 제거효율(제거율, 속도상수)은 -OH, $-OCH_3$ 등 전자주게(electron donating) 작용기를 포함하는 반응매개체에서 높았으며, -COOH, -CHO 등 전자받게(electron withdrowing) 작용기를 포함하는 반응매개체일수록 낮았다. 또한 동일 반응 조건에서 HA 존재에 따른 영향을 검토한 결과 낮은 HA 농도(< 2 mg/L) 조건에서는 1-ID 제거효율의 상승효과를 보였으나 전체적으로는 HA 주입 농도가 증가할수록 교차 결합 반응효율이 저하됨을 확인하였다.

• 분석과학
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• 제28권6호
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• pp.425-429
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• 2015

탄소나노튜브를 이용하여 변형한 콜레스테롤 측정을 위한 바이오 센서를 개발하였다. 개발된 콜레스테롤 바이오 센서는 일회용으로 콜레스테롤의 효소반응에서 전자전달을 증진시키기 위하여 탄소잉크로 스크린 프린트된 전극을 탄소나노튜브를 이용하여 변형하였으며, 변형한 탄소나노튜브 전극위에 콜레스테롤 산화효소와 과산화효소, 전자매개 물질로 페로시안 칼륨을 도포하여 제작하였다. 탄소나노튜브를 이용하여 변형한 콜레스테롤 바이오 센서는 전기화학적으로 콜레스테롤 측정시 매우 신속하고 안정된 신호를 나타내었다. 개발된 콜레스테롤 센서는 소량의 (0.5 μL) 시료로 총 콜레스테롤 100~400 mg/dL 영역에서 5초 이내에 직선적인 감응을 나타내었으며 좋은 재현성을 나타내었다(CV 4.0% 이하).

• Journal of Microbiology and Biotechnology
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• 제14권3호
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• pp.540-546
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• 2004

We deviced a new graphite-Mn(II) electrode and found that the modified electrode with Mn(II) can catalyze NADH oxidation and $NAD^+$ reduction coupled to electricity production and consumption as oxidizing agent and reducing power, respectively. In fuel cell with graphite-Mn(II) anode and graphite-Fe(III) cathode, the electricity of 1.5 coulomb (A x s) was produced from NADH which was electrochemically reduced by the graphite-Mn(II) electrode. When the initial concentrations of pyruvate and acetaldehyde were adjusted to 40 mM and 200 mM, respectively, about 25 mM lactate and 35 mM ethanol were produced from 40 mM pyruvate and 200 mM acetaldehyde, respectively, by catalysis of ADH and LDH in the electrochemical reactor with $NAD^+$ as cofactor and electricity as reducing power. By using this new electrode with catalytic function, the bioelectrocatalysts are engineered; namely, oxidoreductase (e.g., lactate dehydrogenase) and $NAD^+$ can function for biotransformation without electron mediator and second oxidoreductase for $NAD^+$/NADH recycling.

• 한국환경과학회지
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• 제23권10호
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• pp.1745-1753
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• 2014

Sediment microbial fuel cell (SMFC), equipped with Zn, Al, Cu, Fe or graphite felt (GF) anode and marine sediment, was performed. Graphite felt was used as a common cathode. SMFC was single chambered and did not use any redox mediator. The aim of this work was to find efficient anodic material. Oxidation reduction potential (ORP), cell voltage, current density, power density, pH and chemical oxygen demand (COD) were measured for SMFC's performance.. The order of maximum power density was $913mWm^{-2}$ for Zn, $646mWm^{-2}$ for Fe, $387.8mWm^{-2}$ for Cu, $266mWm^{-2}$ for Al, and $127mWm^{-2}$ for graphite felt (GF). The current density over voltage was found to be strongly correlated with metal electrodes, but the graphite felt electrode, in which relatively weaker electricity was observed because of its bio-oriented mechanism. Metal corrosion reactions and/or a complicated microbial electron transfer mechanism acting around the anodic compartment may facilitate to generate electricity. We presume that more sophisticated selection of anodic material can lead to better performance in SMFC.

• Journal of Electrochemical Science and Technology
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• 제8권1호
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• pp.25-34
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• 2017

Concurrent electrocatalysis and sensing of hydrazine, sulfite ions, and nitrite ions in a mixture were studied using electrodes modified by electrodeposited Au nanostructures (NSs). The ${\beta}$-cyclodextrin-mixed silicate sol-gel composite was drop-casted on the electrode surface and nucleation guided by ${\beta}$-cyclodextrin occurred, followed by the electrodeposition of Au NSs. The additive, ${\beta}$-cyclodextrin, played an evident role as a structure-directing agent; thus, small raspberry-like Au NSs were obtained. The modified electrodes were characterized by surface characterization techniques and electrochemical methods. The Au NSs-modified electrodes effciently electrocatalyzed the oxidation of toxic molecules such as hydrazine and sulfite and nitrite ions even in the absence of any other electron transfer mediator or enzyme immobilization. Well-resolved oxidation peaks along with decreased overpotentials were noticed during the electrooxidation process. The fabricated Au nanostructured electrode clearly distinguished the electrooxidation peaks of each of the three analytes from their mixture.

• 약학회지
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• 제57권4호
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• pp.265-271
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• 2013

Treatments of vascular disease via modulating the expression of specific proteins by gene transfer have been attempted in various studies over the past few years. Among several methods to deliver genes, adenovirus currently has been used because of a number of positive aspects. In this study, we test adenoviral vector as a potential mediator in the treatment of vascular disease by using freshly isolated vascular tissues not cultured vascular cells. Freshly isolated vascular tissues were directly exposed to adenoviral vector pAd5CMVmcsIRESeGFPpA to check the possibility of GFP expression in different layer of vascular tissues. We found that the GFP expression by using adenoviral vector experiments is mainly focused on the adventitia and failed to detect GFP expression at endothelial layer or vascular smooth muscle layer in vascular tissues. However, we also found that several integrin receptors are robustly expressed in vascular smooth muscle, thus the limited expression of protein in vascular smooth muscle are not likely the lack of integrin receptors. In conclusion, adenovirus could not be a good tool for a specific protein expression in vascular smooth muscle cell. Thus, the application of adenovirus as a tool for gene therapy of vascular smooth muscle cells in clinical therapeutic trial need to be optimized further.

• 전기화학회지
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• 제8권3호
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• pp.117-124
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• 2005

Electrochemical oxidation of ethanol at nickel electrodes has been studied in 1 M KOH solution containing 0.20M ethanol using electrochemical impedance spectroscopy. Equivalent circuits have been worked out by simulating the impedance data, and the results were used to model the oxidation of ethanol as well as the passivation of the electrode. The maximum rate of oxidation of $Ni(OH)_2$ to NiOOH was observed at about 0.37V vs. Ag/AgCl reference electrode, while the maximum rate of ethanol oxidation at the Ni electrode was observed at about 0.42V, The charge-transfer resistance for oxidation of the electrode itself became smaller in the presence of ethanol than in its absence. These results suggest that the $\beta-Ni(OH)_2/\beta-NiOOH$ redox couple is acting as an effective electron transfer mediator far ethanol oxidation. The kinetic parameters also were obtained by the experimental and simulated results.

• Biomolecules & Therapeutics
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• 제23권4호
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• pp.333-338
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• 2015

Our previous report showed that the extract from cuttlebone (CB) had wound healing effect in burned lesion of rat and the extract was identified as chitin by HPLS analysis. We herein investigated the morphology in CB extract using scanning electron microscope (SEM). Chitin was used as a control. There is no difference in morphology between CB extract and chitin. We also assessed the role of CB extract on the production of inflammatory mediators using murine macrophages and the migration of inflammatory cells. The extract induced the production of nitric oxide (NO) in macrophages. While the extract of CB itself stimulated macrophages to increase the expression of pro-inflammatory cytokines such as tumor necrosis factor (TNF)-${\alpha}$, interleukin (IL)-$1{\beta}$, and IL-6, CB extract suppressed the production of those cytokines by LPS. CB extract also induced the production of mouse IL-8 which is related to the cell migration, and treatment with CB enhanced fibroblast migration and invasion. Therefore, our results suggest that CB activates inflammatory cells to enhance the cell migration.

• Journal of Microbiology and Biotechnology
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• 제21권6호
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• pp.590-598
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• 2011

Bacterial assimilation of $CO_2$ into stable biomolecules using electrochemical reducing power may be an effective method to reduce atmospheric $CO_2$ without fossil fuel combustion. For the enrichment of the $CO_2$-fixing bacteria using electrochemical reducing power as an energy source, a cylinder-type electrochemical bioreactor with a built-in anode compartment was developed. A graphite felt cathode modified with neutral red (NR-graphite cathode) was used as a solid electron mediator to induce bacterial cells to fix $CO_2$ using electrochemical reducing power. Bacterial $CO_2$ consumption was calculated based on the variation in the ratio of $CO_2$ to $N_2$ in the gas reservoir. $CO_2$ consumed by the bacteria grown in the electrochemical bioreactor (2,000 ml) reached a maximum of approximately 1,500 ml per week. Time-coursed variations in the bacterial community grown with the electrochemical reducing power and $CO_2$ in the mineral-based medium were analyzed via temperature gradient gel electrophoresis (TGGE) of the 16S rDNA variable region. Some of the bacterial community constituents noted at the initial time disappeared completely, but some of them observed as DNA signs at the initial time were clearly enriched in the electrochemical bioreactor during 24 weeks of incubation. Finally, Alcaligenes sp. and Achromobacter sp., which are capable of autotrophically fixing $CO_2$, were enriched to major constituents of the bacterial community in the electrochemical bioreactor.

• Bulletin of the Korean Chemical Society
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• 제27권5호
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• pp.672-678
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• 2006

A new approach to fabricate an enzyme electrode was described based on the immobilization of horseradish peroxidase (HRP) on dithiobis-N-succinimidyl propionate (DTSP) self-assembled monolayer (SAM) formed on gold-nanoparticles (Au-NPs) which were electrochemically deposited onto glassy carbon electrode (GCE) surface. The overall surface area and average size of Au-NPs could be controlled by varying deposition time and were examined by Field Emission-Scanning Electron Microscope (FE-SEM). The $O_2$ reduction capability of the surface demonstrated that Au-NPs were thermodynamically stable enough to stay on GCE surface. The immobilized HRP electrode based on Au-NPs/GCE presented faster, more stable and sensitive amperometric response in the reduction of hydrogen peroxide than a HRP immobilized on DTSP/gold plate electrode not containing Au-NPs. The effects of operating potential, mediator concentration, and pH of buffer electrolyte solution on the performance of the HRP biosensor were investigated. In the optimized experimental conditions, the HRP immobilized GCE incorporating smaller-sized Au-NPs showed higher electrocatalytic activity due to the high surface area to volume ratio of Au-NPs in the biosensor. The HRP electrode showed a linear response to $H_2O_2$ in the concentration range of 1.4 $\mu$M-3.1 mM. The apparent Michaelis-Menten constant ($K _M\; ^{app}$) determined for the immobilized HRP electrodes showed a trend to be decreased by decreasing size of Au-NPs electrodeposited onto GCE.